Networks adapt to environmental demands by switching between distinct dynamical behaviors. The activity of frontal-lobe neurons during two-interval discrimination tasks is an example of these adaptable dynamics. Subjects first perceive a stimulus, then hold it in working memory, and finally make a decision by comparing it with a second stimulus. We present a simple mutual-inhibition network model that captures all three task phases within a single framework. The model integrates both working memory and decision making because its dynamical properties are easily controlled without changing its connectivity. Mutual inhibition between nonlinear units is a useful design motif for networks that must display multiple behaviors
SummaryCortical function is regulated by a strikingly diverse array of local-circuit inhibitory neur...
Inhibitory neurons, which play a critical role in decision-making models, are often simplified as a ...
SummaryVolitional behavior relies on the brain's ability to remap sensory flow to motor programs whe...
In Section 2, we describe in detail the neural model and methods used to design the two-node mutua
Neural network models have been constructed to explore the underlying neural mechanisms for decision...
<p><b>A)</b> A coupled system model composed by two groups of two mutually inhibited nodes, where L ...
In a simple reaction time task in which auditory and visual stimuli are presented in random sequence...
Attentional networks that integrate many cortical and subcortical elements dynamically control menta...
Attentional networks that integrate many cortical and subcortical elements dynamically control menta...
<p>(a) Three different stimulus features (e.g. odors) encoded by different neurons in the network. T...
SummaryAs a precursor to the selection of a stimulus for gaze and attention, a midbrain network cate...
Coordinated spiking of neuronal populations underlies the perception of sensory stimuli, the plannin...
International audienceWe investigate the role of inhibition in structuring new neural assemblies fol...
International audienceWe investigate the role of inhibition in structuring new neural assemblies fol...
Inhibition is crucial for brain function, regulating network activity by balancing excitation and im...
SummaryCortical function is regulated by a strikingly diverse array of local-circuit inhibitory neur...
Inhibitory neurons, which play a critical role in decision-making models, are often simplified as a ...
SummaryVolitional behavior relies on the brain's ability to remap sensory flow to motor programs whe...
In Section 2, we describe in detail the neural model and methods used to design the two-node mutua
Neural network models have been constructed to explore the underlying neural mechanisms for decision...
<p><b>A)</b> A coupled system model composed by two groups of two mutually inhibited nodes, where L ...
In a simple reaction time task in which auditory and visual stimuli are presented in random sequence...
Attentional networks that integrate many cortical and subcortical elements dynamically control menta...
Attentional networks that integrate many cortical and subcortical elements dynamically control menta...
<p>(a) Three different stimulus features (e.g. odors) encoded by different neurons in the network. T...
SummaryAs a precursor to the selection of a stimulus for gaze and attention, a midbrain network cate...
Coordinated spiking of neuronal populations underlies the perception of sensory stimuli, the plannin...
International audienceWe investigate the role of inhibition in structuring new neural assemblies fol...
International audienceWe investigate the role of inhibition in structuring new neural assemblies fol...
Inhibition is crucial for brain function, regulating network activity by balancing excitation and im...
SummaryCortical function is regulated by a strikingly diverse array of local-circuit inhibitory neur...
Inhibitory neurons, which play a critical role in decision-making models, are often simplified as a ...
SummaryVolitional behavior relies on the brain's ability to remap sensory flow to motor programs whe...